Postoperative changes in cognition and cerebrospinal fluid neurodegenerative disease biomarkers

Berger, Miles; Browndyke, Jeffrey N.; Wright, Mary Cooter; Nobuhara, Chloe K.; Reese, Melody; Acker, Leah; Bullock, W. Michael; Colin, Brian J.; Devinney, Michael J.; Moretti, Eugene W.; Moul, Judd W.; Ohlendorf, Brian; Laskowitz, Daniel T.; Waligórska, Teresa; Shaw, Leslie M.; Whitson, Heather E.; Cohen, Harvey Jay; Mathew, Joseph; Amundsen, C. L.; Bennett, Ellen; Blazer, D; Bolognesi, Michael P.; Brassard, R.; Brigman, Brian E.; Carter, J.; Chapman, Jennifer; Cheong, V Wang Cm Seah Wl Chow Sh Lim Ck; D’Amico, Thomas A.; DeOrio, James K.; Erdmann, Dirk; Esclamado, Ramon M.; Ferrandino, Michael N.; Funk, Bonnie L.; Gadsden, Jeff; Grant, Samuel C.; Garrigues, Grant E.; Guercio, J. R.; Habib, Ahasan; Hallows, R. K.; Harpole, David H.; Hartwig, Matthew G.; Hollenbeck, Scott T.; Hu, Ji; Iboaya, E.; Inman, Brant A.; Jang, David W.; Kaisen, J.; Khan, Ahmed; Lagoo‐Deenadayalan, Sandhya; Lee, P. S.; Lee, W. T.; Lemm, Joy; Levinson, Howard; Lipkin, Michael; Mantyh, Christopher R.; Martucci, Katherine T.; McDonagh, David L.; Migaly, John; Mithani, Suhail K.; Mosca, Piergiorgio; Newman, Mark F.; Ni, Korabel'shchikova; Novick, Tessa K.; Pappas, Theodore N.; Pérez, Alba; Peterson, A. C.; Polascik, Thomas J.; Podgoreanu, A.; Preminger, Glenn M.; Quiñones, Quintin J.; Rampersaud, Edward N.; Roberts, Kenneth; Robertson, Cary N.; Roman, Sabine; Runyon, Scott P.; Sandler, Adrian D.; Scales, Charles D.; Scheri, Randall P.; Smith, S. Kendall; Talbot, Laura A.; Thacker, Julie K.; Thomas, John P.; Tong, Betty C.; Toulgoat-Dubois, Yanne; Tu, A.; Vaslef, Steven N.; Waldron, Nathan H.; Warner, David S.; Wang, X.; Wellman, S. S.; Wickenheisser, T.; Woldorff, Marty G.; Young, Christopher C.; Zani, Sabrina Rebollo

doi:10.1002/acn3.51499

Cited by 21 publications

(27 citation statements)

References 81 publications

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“…Consistent with previous study, the present study demonstrated that surgery and anesthesia-induced accumulation of hyperphosphorylated tau proteins was associated with cognitive impairment. However, a study by Berger et al failed to reveal the significant change of CSF tau, P-tau-181p, or Aβ levels before and after surgery in non-cardiac surgery [ 58 ]. This is contrary to our findings, which may be due to the various time points of assessment, the different definition of POCD, as well as the multiple types of surgery.…”

Section: Discussionmentioning

confidence: 99%

Anesthesia and surgery-induced elevation of CSF sTREM2 is associated with early cognitive dysfunction after thoracoabdominal aortic dissection surgery

Wang

Cao

et al. 2022

BMC Anesthesiol

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Purpose Soluble triggering receptor expressed on myeloid cells 2 (sTREM2) concentration is increased in cerebrospinal fluid (CSF) in early symptomatic phase of Alzheimer’s disease (AD). This study investigated whether CSF sTREM2 has a relationship with early cognitive dysfunction following surgery in cardiac surgery patients. Methods A total of 82 patients undergoing thoracoabdominal aortic replacement were recruited in this study. Neuropsychological testing battery was conducted before and after surgery. Postoperative cognitive dysfunction (POCD) was defined as a Z-score > 1.96 on at least 2 different tests or Telephone Interviews for Cognitive Status-Modified (TICS-M) score < 27. The CSF and serum sTREM2, Aβ42, T-tau and P-tau were collected and measured by ELISA on day before surgery and postoperative day 3. Results Patients were classified into POCD (n = 34) and non-POCD (n = 48) groups according to Z-score. Compared to non-POCD group, the levels of CSF sTREM2 (p < 0.001) and serum sTREM2 (p = 0.001) were significantly higher in POCD group on postoperative day 3. The levels of Aβ42 (p = 0.005) and Aβ42/T-tau ratio (p = 0.036) were significantly lower in POCD group on postoperative day 3. Multivariate logistic regression analysis revealed that higher value of postoperative CSF sTREM2 (odds ratio: 1.06, 95% confidence interval: 1.02–1.11, p = 0.009), age (OR: 1.15, 95%CI: 1.03–1.28, p = 0.014) and POD duration (OR: 2.47, 95%CI: 1.15–5.29, p = 0.02) were the risk factors of POCD. Conclusion This study indicates that anesthesia and surgery-induced elevation of CSF sTREM2 is associated with an increased risk of early cognitive dysfunction following surgery.

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Section: Discussionmentioning

confidence: 99%

Anesthesia and surgery-induced elevation of CSF sTREM2 is associated with early cognitive dysfunction after thoracoabdominal aortic dissection surgery

Wang

Cao

et al. 2022

BMC Anesthesiol

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“…Samples and data were utilized from MADCO-PC (NCT01993836) 17 and INTUIT (NCT03273335) 18 studies. Markers of Alzheimer's Disease and neuroCognitive Outcomes after Perioperative Care (MADCO-PC) 17 was an observational cohort study that enrolled 140 older surgical patients (age ≥60) undergoing noncardiac, non-neurologic surgery.…”

Section: Methods: Study Informationmentioning

confidence: 99%

A Role for Blood-brain Barrier Dysfunction in Delirium following Non-Cardiac Surgery in Older adults

Devinney

Wong

Wright

et al. 2023

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Objective: Although animal models suggest a role for blood-brain barrier dysfunction in postoperative delirium-like behavior, the role of postoperative blood-brain barrier dysfunction in postoperative delirium and overall recovery is unclear. Thus, we evaluated the role of blood-brain barrier dysfunction in postoperative delirium and hospital length of stay among older surgery patients. Methods: Cognitive testing, delirium assessment, and cerebrospinal fluid and blood sampling was prospectively performed before and after non-cardiac, non-neurologic surgery in older adults. Blood-brain barrier dysfunction was assessed using the cerebrospinal fluid-to-plasma albumin ratio (CPAR). Results: Of 207 patients with complete CPAR and delirium data, 26 (12.6%) developed postoperative delirium. Overall, CPAR increased from before to 24 hours after surgery (median postoperative change 0.28, [IQR] [-0.48- 1.24]; Wilcoxon p=0.001). Preoperative to 24-hour postoperative change in CPAR was greater among patients who developed delirium vs those who did not (median [IQR] 1.31 [0.004, 2.34] vs 0.19 [-0.55, 1.08]; p=0.003). In a multivariable model adjusting for age, baseline cognition, and surgery type, preoperative to 24-hour postoperative change in CPAR was independently associated with delirium incidence (OR, 1.30, [95% CI 1.03-1.63]; p=0.026) and increased hospital length of stay (incidence rate ratio, 1.15 [95% CI 1.09-1.22]; p<0.001) Interpretation: These data demonstrate that postoperative increases in blood-brain barrier permeability are associated with increased delirium risk and increased postoperative hospital length of stay. Although these findings do not establish causality, they suggest studies are warranted to determine whether interventions to reduce postoperative blood-brain barrier dysfunction would reduce postoperative delirium risk and hospital length of stay.

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“…To date, most of the fluid biomarker studies in delirium and dementia have used cerebrospinal fluid (CSF) or blood (plasma or serum). Although CSF is thought to more accurately represent processes occurring in the brain, the collection of CSF, particularly in people with delirium, over multiple time points or in large-scale studies holds particular challenges [58][59][60][61][62] . Blood-based biomarkers are more accessible during acute illness, but plasma concentrations of biomarkers are often very low.…”

Section: Diagnosismentioning

confidence: 99%

The inter-relationship between delirium and dementia: the importance of delirium prevention

2022

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Cognitive impairment is frequent among older adults, with delirium and dementia being two of the most common causes. Delirium refers to a disturbance in attention and awareness that is acute in onset and represents a change from baseline cognitive function 1 . At least one additional cognitive disturbance is required for diagnosis, for example, disturbance of memory, orientation, language, visuospatial ability or perception; fluctuations in mental status throughout the day are also present. For a diagnosis of delirium, these disturbances cannot be better explained by another neurocognitive disorder and there must be evidence that the disturbances are a consequence of a medical condition, substance intoxication or withdrawal, a toxin, or multiple aetiologies. Often precipitated by illness or hospitalization in older adults, delirium is associated with poor short-term and long-term outcomes, including prolonged length of hospital stay, institutionalization, functional and cognitive decline, and death 2 . In the United States, more than 2.6 million adults aged 65 years and older develop delirium each year 3 . The health-care costs associated with delirium are estimated at more than US$ 164 billion per year in the United States 4 and over US$ 182 billion per year in 18 European countries combined 5,6 .

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Postoperative changes in cognition and cerebrospinal fluid neurodegenerative disease biomarkers

Cited by 21 publications

References 81 publications

Anesthesia and surgery-induced elevation of CSF sTREM2 is associated with early cognitive dysfunction after thoracoabdominal aortic dissection surgery

Anesthesia and surgery-induced elevation of CSF sTREM2 is associated with early cognitive dysfunction after thoracoabdominal aortic dissection surgery

A Role for Blood-brain Barrier Dysfunction in Delirium following Non-Cardiac Surgery in Older adults

The inter-relationship between delirium and dementia: the importance of delirium prevention

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